Juice extractor



March 23, 1954 c HARDEN 7 2,672,900

JUICE EXTRACTOR Filed Nov. 6, 1951 r 3 Sheets-Sheet 1 CFZQC HHEDEN,

I N V EN TQR.

C. HARDEN JUICE EXTRACTOR March 23, 1954 s Sheets-Sheet 2 Filed NOV. 6, 1951 5 mm %m N @E e w m H W 7 a p b m V Y B m z m l w a w 5 Marfi 23, 1954 c, HARDEN 2,672,900

JUICE EXTRACTOR 3 Sheets-Sheet 3 Filed NOV. 6, 1951 I N V EN TOR.

AVTOQA/Ef-(S' Patented Mar. 23, 1954 amen i 1 .c l'naiqeti Citrus, Mach nery Corporatio n, v acorporat ion of California I A hi s invention relates. .tQ juice extracting machines, and has, particulanreferencefto machine's ,forrextractingjuice from citrus fruits. v @Anumber of machinesihave been designed for extracting juicev from citrus fruits. Of these, twegeneral typesare-in use. .The first of these ,types .usuallyx employs .a cup type. conveyor or retainer which retain s afruit half, and a reamer, iadapted-to-enter the fruit and ream the. juice therefrom. Machines oft-this type I possess the ,advantage of being highly, efiicient. Inasmuch, :howeverg as accuratesynchrqnism must be main- ..tained between; the" eonveyorsand reamers. they .areiofrather intricate design and expen'sive to .manufacture and maintain and are relatively :large in size. .Moreover, such machines are, in :general, not capable of handlingfruit-of widely :varying size without separate adjustment. Such adjustment normally. requires cessation of. the operation of the machine. The :second general :type of juice extractor does not employ thereamprinciple, but rather presses orsqueezes fruit ;ha1ves or quarters to force therefrem the juice. 1 Such machines are, in general, smaller and-more urugged. and are less expensive to; manufacture and maintain than thoseheretofore described. They: possess the disadvantage, however, of being quite inefiicient.-- Moreover; the quality. of g'juicesuffers when extracted by crushing' fruit, ja due to tearing-of thepeel'which necessarily oc- ;curs in such-a-machiner W I v. j ym ln accordance with the present-invention, a 'gmachine is, provided which/possesses the advantagesof each of these two types. While the machine is of (the reamer; type it. requires .no synchronism-between the moving parts,..and-.hence it-is of exceedingly simple and compact design,

is of small size and is inexpensive to manufacture and maintain. Moreover, the machine of the -.;:present invention is'operable at exceedingly high speeds with good ,efiliciency, and canzhandlefruits 9i} widely. varying sizes without separate a'djustment. e 1; Accordingly, it is an object of thepresent invention to provide a juice extracting machine which=can be efiiciently operated at exceedingly,

high speeds.

. on 5 pr vi e' s c ee agn n .w i ftruet and. mainta I I Application November 6,

Whittier, oaurl', assignor' toBrown Whittier. Ca1if.,

1951, 'srialnd z' satoi j, Qt $5 455 it an additionalobject of this invention to provide such a. machine which is of act size. f' a {It is another object of this invention taprovide such a machine which can continuously handle fruit of widely varying sizes,

It is a further object of this invention t'ofpiovide such a machinewhich'utilizes a reamer for extracting juice from fruit, but-whichrequires no synchronism between the feeding-andjuice e tracting. mechanisms.1 f' 1 Other objects and advantages ofthejinv'enti'on willbe apparent from the following detailed'dejscription of a preferred embodiment thereof when read "in connection with" the accompanying d f g qi. Q N .1

In the drawings,fl Fig. '1 is'a sideelevationbf a juice extracting machine embodying the present invention." 0' Figii2 is a frontal elevation of the machine shown in-"Fig.'1 with-the cover-portion removed. Fig. 3 is a section taken along the-line 3'--3 j -Fig; e -is a section taken along the line 4-5-41 "Fig- 5 is a section taken along the line 5-5 "0f"Fig.'3';" Fig. 6 is a view similar to Fig.- 5 illustrating the operation of apart of the-machine.

f-Figr'7'is a section taken along the lin Referring now to the drawings, a citrusjuice extracting-machineembodying the present invention in its preferred form is seen tdcQmprise a housing I0 withinfwhich isdisposed ajrotat- "ingy-grooved feeder wheel ll adapted to receive fruit portionsfrom a suitable trough 12. The ffruit portion's are: preferably fruit halves, al-

though quarters or other fractions may be employedi Feederwheel is preferably faced with a. resilient material; such as rubber, in order to iiprovideibetter traction. Moreover fruitjb t bh i df e i ar n s ann ns eadilyhandled since the resilient facing permits "the groove to accommodate to different. Sized: fruit .portions.

suitable not show i cutting and conveying 1 15.1 2 to ferent types of cutting and feeding mechanisms are well known in the art, it is deemed unnecessary to set forth these portions in detail herein. Also located within the housing I is a reamer I4 which extends into the groove of the feeder wheel and which is adapted to enter and ream the juice from the fruit portions carried on the feeder wheel I I. While in the drawings the reamer is shown to be of the broad fluted type, having a generally elliptical cross section, which type has been found to be preferred, other types of reamers, for example burr wheels, or the like, may be used. In addition, the cross section of the reamer is preferably similar to that of the annular groove in the feeder wheel in order to insure uniform reaming of the fruit. Above the feeder wheel I I is disposed a pair of symmetrically placed spaced loader wheels I5 which rotate, in opposite directions, about longitudinal axes which are generally tangential to the feeder Wheel. As will be described hereinafter, these loader wheels serve to seat the fruit portions securely into the annular groove of the feeder wheel to prevent jamming thereof.

Commencing just below the reamer I4 and extending about the lower portion of the feeder wheel is a separator grid I6 which serves to separate the fruit peels from the juice after the fruit portions have been reamed. Disposed below this separator grid is a drip pan I'I feeding to a juice spout I8 from which flows the extracted juice. A horizontal stripper arm I 9 attached to the back portion of the machine extends into the grooved portion of the feeder wheel H at the bottom thereof, as best seen in Fig. 3. This stripper arm is operative to engage the fruit peels after the juicing operation. and strip the same from the feeder wheel onto the separator grid I 6. The fruit peels which are too large to fall through the separator grid I6 then tumble out a disposal opening. While such opening is illustrated as being located at the rear of the machine, it will be obvious that the fruit peels can be ejected at other locations on the machine without affecting the operation thereof.

The drive mechanism for the various parts will now be described. A horizontal shaft upon which is mounted a Worm 2I is utilized as a drive shaft. It will, of course, be readily apparent that other shafts in the mechanism could also be used as the drive shaft. Attached to the shaft 20 is a sheave 22 operatively associated by means of ;a chain 23 with a second sheave 24 mounted upon the drive shaft of a motor 25. As seen, the shaft 20 is rotated by motor 25. is carried by a shaft 26 which carries a worm wheel 2&3. The worm 2| and worm Wheel 28 will cause a corresponding rotation of the feeder wheel II in the direction indicated. The speeds of the parts are in no Way critical provided the speed of the reamer wheel substantially exceeds that of the feeder wheel. Excellent operation has been accomplished Where the worm gear arrangement was such as to step down the rotation of the feeder wheel I I to the reamer wheel in the ratio on the order of 1-40. As seen in Fig. 3, shaft 26 is mounted in a bearing 29, which in turn is carried in a horizontal slot in the side of the housing I0. A compression spring is provided which tends to force the bearing 29 and with it the shaft 26 to the right, as viewed in Fig. 3. Identical mounting is provided for the other end of the shaft 26 at. the other side of the housing I0. With this arrangement the feeder wheel floats, the spring 30 tending to force the same The feeder wheel II to the right, as viewed in Fig. 3. The compression on the spring 30 is regulated to control the pressure with which the reamer I4 engages the fruit portions in the feeder wheel to make allowance for fruit of varying peel thicknesses. Thus, if the machine Were adjusted to operate with maximum efliciency with fruit of a certain sized peel thickness, and a larger portion of fruit were introduced into the feeder Wheel having a substantially greater peel thickness, if the parts were rigidly fixed, the reamer I4 would necessarily ream well into the outer pulp and peel of the fruit. This undesirable result is avoided in the present machine since the increased pressure of the reamer against the large sized fruit will force the feeder wheel backwardly against the compression spring 30,. thereby maintaining the reaming pressure relatively constant regardless of variations in fruit size.

Also carried by shaft 26 is a sprocket 3I which carries a chain 32 associated with which is a second sprocket 33 carried by a shaft 34. The shaft 34 extends into a gear box assembly 35 in which is disposed the mechanism for rotating the loader wheels I5. Thus, as best seen in Figs. 3 and 4, carried by shaft 34 is a pair of helical gears 36, each of which engages one of a pair of helical gears 31. Gears 37 are mounted respectively on shafts 38, each of which is journaled in suitable bearings in the gear box. Each of the shafts 38 carries one of the loader wheels I5. As seen in Fig. 4, the gears 31 are arranged to rotate the loader wheels I5 about their respective axes in opposite directions. While as before the speed of rotation of the parts is not critical, it has been found preferable to employ a gear and sprocket ratio such as to rotate the loader wheels I5 at the same peripheral speed as the feeder wheel I I.

To drive the reamer I4, a pair of mitre gears 39 and 40 is provided. One of these is mounted upon shaft 20, and the second is mounted upon a shaft 4!. The shaft 4I extends through the housing I0 and is supported by suitable bearings, not shown. Rigidly carried by the shaft M is the reamer I4. The gear ratios employed are preferably such that the reamer I4 will rotate at the same speed as the shaft 23. Moreover, the arrangement is such that the reamer It will rotate in a direction opposite to that of the feeder wheel as indicated in Fig. 3.

As will be apparent from the above, the operation of the motor 25 will cause shaft 29 to rotate at the motor speed. This will rotate the feeder wheel II through the worm 2I and worm wheel 28 at a speed considerably lower than that of the shaft 20. Simultaneously, the chain drive will rotate the shaft 34 which, through the gears 31 and gears 36, will-rotate the loader wheels I5 in opposite directions, as indicated inFig. 5. In like manner, mitre gears 39 and 40 will rotate, through shaft M, the reamer I4 at approximately motor speed.

Referring particularly to Figs. 5 through '7, the operation of the loader wheels I5 will now be described. While relatively small fruit halves will seat properly in the feeder wheel II, when a larger fruit half such as that shown in Figs. 5 through 7 is encountered, it must be forcibly seated in the grooved portion of the feeder wheel. If this is not done, the fruit half will simply bounce back from the feeder wheel, thereby jamming the machine by preventing all following fruit from entering. To firmly seat the fruit halves in the feeder wheel, the loader wheels I5 are provided. About the outer surface of each sermo rtions as weiifasj thebottom 'portion oflthe eff ct is illustrated in" Eigf'i.

I addition o the above described function,

"the loader wheels,'in connection with thefeeder wheel, distort the fruit halves making possible rapid, nonsynchronous operation of the ma- Thus'Qithas been'found that the normal or burrwheel rotating on its central axis, that is. on an axisparanei to the cut face ofthe fruit half cannot'ble' used" without scoring the fruit ijsides, thereby mutilating the fruit with consegquentinefficient'; juice extraction as well asother fdisadvantages; Thus, in order to make the greamer whfel curvature conform to the inner pee1 .,0f, anormal fruit half, which is essential "tojan efficient; reaming operation, the central f axis ofthe wheel will lie beyond the face of the ,fruit half. The result 'hasbeenthat in any successful reazn'er type juice extracting maehine, fth'e axis of ;ro tation of the reamer has been perpend icula r' to. the plane of the cut-face of the jfruit This relationship, of course'necessitates synchronization of the fruit conveyor with the reameru Asan important feature ofthe present invention, it has been found that iffruit halves are distorted, asby the compressing action of the loader wheels and the grooveof the feeder jwheel for larger size fruit halves, 'or just' the groove of the feederwheel for fruithalves too v.small to be engaged by the loader wheels, itthen becomes possible .to employ a reamer wheel havfruit. .Thus, the compressing action of theloader wheels causes thecurvature of the peel 'of the fruithalf to, flare outwardly in a direction perpendicular to theaxes of the .loader wheels, as

.--viewed.in,,Fig. 5, or after the fruit halves are seated in theufeeder wheel, tangential pf the feeder. wheelmln addition, such compressing ...action causes. the cut face, of the fruit half to leow ,outwardly,,as shown in Fig. 6. Asis apparent from the shape of the deformed fruit half, and as shown in Fig. '7, the, central axis of a reamer wheel havinga curvature corresponding to the inner curvature of the peel will lie well above the cut face of the fruit with the result that such areamer can be. successfully employed. As abovedescribed-, thiselimin'ates the. need .for synchronization .of .1 the. par-ts, making possible a simple, efiicient and high speedmachine. To operate theabove described machine, .it is merely necessary-to feed fruit portions down the-trough l2. Such-fruitportions are gripped hy-the loader wheels i 5. For larger fruit., halves,

' much.Qhthisdistortionis-c useabathe or resf h l d .wheels-al ne.

resc this distortion is sinaller fruit halves, however,

of a. citrus fruit half is such that a reamer "6 causediprimarilys'byxthe;zcp fi llrefii lr feedersiwheel igroove'sg: The -feeder banieszsthdifruitrjpQlition Q N ani' sfi inmna eameri .b chr am hei i from the: fruit.i; Ifhfei juice" then falls; through the s parator gridsv onto thed n a fini lm, jifi'cei spouti free-"reamed .i uitwpeels. mayb 'ica'iried; bymhe"'feedeltzwheelgl 1 until the same are engaged by the stripping arm lfl which stripsthe fi'uit'lpeels from,thefeeQ aWhB I- li b found, ihowever,1'that most peels wil lbe forced from the feederzwheel byithe action ofthe reainer iju's'tafter theijuice-has.'been;extracted from the fruitthalft The. peels, then i all; through a disposal fo'peningrfrom 'themachine; into a suitable recep- 1'tacle..With-:yery small ,sized fruits, the feeder :wlie'elzlFt willvbeseparated from the reamer M by but a. short:.cdistance dueto the action of the compressionxspringflfl. When larger sized fruit iisrencountered; the feeder wheel will be forced backwardlyxagainst the compression spring -3Bto iprovideldurther clearance between the feeder i'wheelandthe reamer. Q v 1::"A' machine designed in accordance with the .inventiona'bove described has been found-to possess a number 'of very marked advantages. Among these: is that there is no need for synchronism between the various moving parts, with the "result that'the machine is simpleand inexpensive tdconstruct and maintain; and exceedingly high 'jspeed" operation can be obtained. In addition, the machine will efiicientlymperatewithoutad- "justme'ntzeven though-relatively wide variations in fruit' size are encountered. f

It is-to be understoodthat'the form of the invention shownand-described is to be taken as a preferred example of thesarneyand thatvarious embodiments thereof may beresorted to without departing-from; the spirit of the invention or the ascope of the appended claims.

' I claim:--

q 1.11.1;8. machine of the class described, a vertical feederwheel having a peripheral annular groove therein, a pa-ir of spaced loader wheels adjacent saidfeeder wheel and cooperating-therewith to deliver fruit portions to said annular y gr0ove,--and-areamer extending into the groove of said feeder-wheel. 2-;5In a machine of the class. described, a verti- .i'ng a central axis parallel to the cut face of the r calfeeder'whe'el having? fruit portion receiving 1-3; ,Inamachine of the class described, a vertical feederwheel having a peripheral annular groove-therein, a pair of spaced loader wheels adjacent said .c feeder wheel and cooperating therewithto-deliver fruit portionsv to said annular -;-groove,-;a. reamer.-extending into. the, grooveof .said feeder wheehand'a separator grid disposed about the -lower. .portion of said feeder wheel.

;4.- In amachineof. theclass described, a verticab feeder-wheelshaving a peripheral annular o ve-mania.a pair eis'p d load r Wh El M 1 acentsaidfeede wheeland cooperating thereruit portions to saidl annlilar groove, fruit gripping .rneans, disposed aboutjhe outer surface ,of, said loader wheels; and a 'rearner extending, into the grooveof said feeder wheel.

Q ,2 a, ma hine the lass de ia v t cal feeder wheel having a fruit "portion 'receiving -seatis ltel-....ann r.- w e the e n a pair 101? pscedisubst'ssusuy identical loader wheels ad- 7 jacent said feeder wheel operative to receive fruit portions and to seat the same into the groove of the said feeder wheel, a reamer adjacent said feeder wheel and operative to engage said fruit portions, and a separator grid disposed about the lower portion of said feeder wheel.

6. In a machine of the class described, a vertical feeder wheel having a fruit portion receiving peripheral annular groove therein, a pair of spaced, substantially identical loader wheels adjacent said feeder wheel, fruit gripping means disposed about the outer surface of said loader wheels, said loader wheels operative to receive fruit portions and to seat the same into the groove of the said feeder wheel, a reamer adjacent said feeder wheel and operative to engage said fruit portions, and a separator grid disposed about the lower portion of said feeder Wheel.

7. In a machine of the class described, a rotating vertical feeder wheel having a peripheral annular groove therein, a pair of oppositely rotating spaced loader wheels adjacent said feeder wheel and cooperating therewith to deliver fruit portions to said annular groove, and a reamer extending into the groove of said feeder wheel, said reamer rotating in a direction opposite to and at a speed substantially in excess of the said feeder wheel.

8. In a machine of the class described, a vertical feeder wheel having a fruit portion receiving peripheral annular groove therein and rotating about a horizontal axis, a pair of oppositely rotating spaced loader wheels adjacent said feeder wheel, fruit gripping means disposed about the outer surface of said loader wheels; said loaderwheels being operative to receive fruit portions and to seat the same in the grooveof the said feeder wheel, and a reamer adjacent said feeder wheel and extending into the groove thereof, the said reamer rotating about a horizontal axis in a direction opposite to and at a speed substantially in excess of that of the said feeder wheel.

9. In a machine of the class described, a vertical feeder wheel having a fruit portion receiving peripheral annular groove therein and adapted to rotate about a horizontal axis, a pair of spaced loader wheels adjacent said feeder wheel, the longitudinal axes of said loader wheels being tangential to the said feeder wheel, the loader Wheels being adapted to rotate in opposite directions about their said axes, and a reamer extending into the groove of said feeder wheel and adapted to rotate about a horizontal axis in a direction opposite to and at a speed substantially in excess of that of said feeder wheel.

10. In a machine of the class described, a vertical feeder wheel having a fruit portion receiving peripheral annular groove therein and adapted to rotate about a horizontal axis, a pairof spaced loader wheels adjacent said feeder wheel, the longitudinal axes of said loader wheels being tangential to the said feeder wheel, the said feeder wheels being adapted to rotate in opposite directions about their said axes, fruit gripping means disposed about the outer surface of the said loader wheels, said loader wheels being operative to receive fruit portions and to seat the same into the groove of the said feeder wheel, and a reamer adjacent said feeder Wheel operative to engage said fruit portions, the said reamer having a horizontal axis and being adapted to rotate about said axes in a direction opposite to and ata speed substantially in excess of that of the feeder wheel. g I

7 11. In av machine of the class described, a vertical feeder wheel having a fruit portion receiving peripheral annular groove therein and adapted to rotate about a horizontal axis, a pair of spaced loader wheels adjacent said feeder wheel having longitudinal axe substantially tangential to the said feeder wheel and adaptedto rotate in opposite directions about said axes, fruit gripping means disposed about the outer surface of said loader Wheels, said loader wheels being operative to receive fruit portions and to seat the same in the groove of the said feeder wheel, a reamer adjacent said feeder wheel and extending into the groove thereof to engage the said fruit portions, the said reamer being adapted to rotate about a horizontal axis in a direction opposite to and at a speed substantially in excess of that of the said feeder wheel, and a separator grid disposed about the lower portion of the said feeder wheel and operative to separate the juice of the said fruit from the peel thereof after the said fruit portions have been engaged by the said reamer.

12. In a machine of the class described, a vertical feeder wheel having a fruit portion receiving peripheral annular groove therein and adapted to rotate about a horizontal axis, a pair of spaced loader Wheels adjacent said feeder wheel having longitudinal axes substantially tangential to the said feeder wheel and adapted to rotate oppositely about said axes, fruit gripping means disposed about the outer surface of said loader wheels, said loader wheels being operative to receive fruit portions and to seat the same in the groove of .the said feeder wheel, a reamer adjacent said feeder wheel and extending into the groove thereof to engage the said fruit portions, the said reamer being adapted to rotate about a horizontal axis in a direction opposite to and at a speed substantially in excess of that of the said feeder wheel, a stripper arm extending into the groove of said feeder wheel and adapted to remove fruit peels from said feeder wheel after the said fruit portions have been so engaged by the said reamer, and a separator grid disposed about the lower portion of the said feeder wheel and operative to separate the juice of the said fruit from the said peel thereof after the said fruit portions have been engaged by the said reamer.

13. In a mach ne of the class described, a vertical, imperforate feeder wheel having a fruit portion receiving peripheral annular groove therein and adapted to rotate about a horizontal axis, a pair of spaced, substantially identical loader wheels adjacent said feeder Wheel, the longitudinal axes of said loader wheels being tangential to the said feeder wheel, the said feeder wheels being adapted to rotate in opposite directions about their said axes, fruit gripping means disposed about the outer surface of the said loader wheels, said loader Wheels being operative to receive fruit portions and to seat the same into the groove of the said feeder wheel, and a reamer adjacent said feeder wheel'operative to engage said fruit portions, the said reamer having a horizontal axis and being adaptedto rotate about said axis in a direction opposite to and at a speed substantially in excess of that of the feeder wheel.

14. In a machine of the class described, a vertical feeder wheel having a fruit portion receiving peripheral annular groove therein and adapted to rotate about a horizontal axis, said annular groove being semi-elliptical in cross section, a .pairof spaced loader wheels adjacent said feeder wheel, the longitudinal axes of said loader wheels being tangential to the said" feeder wheel, the

9 said feeder wheels being adapted to rotate in opposite directions about their said axes, fruit gripping means disposed about the outer surface of the said loader wheels, said loader wheels being operative to receive fruit portions and to seat the same into the groove of the said feeder wheel, and a reamer adjacent said feeder wheel operative to engage said fruit portions, the said reamer having a horizontal axis and being adapted to rotate about said axes in a direction opposite to and at a speed substantially in excess of that of the feeder wheel, and said reamer having a cross 10 section generally conforming to the cross section of said annular groove.

CARL HARDEN.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 2,212,066 Fry Aug. 20, 1940 2,235,744 Gould Mar. 18, 1941 2,241,081 Clark May 6, 1941 2,288,756 Thompson July 7, 1942 2,538,590 Polk Jan. 16, 1951 2,540,014 Smith Jan. 30, 1951 

